KR20210046491A - Sediment treatment devices for lakes and reservoirs - Google Patents

Abstract

The present invention relates to a sediment treatment device for lakes and reservoirs. The present invention includes a buoyancy ship, a compressor, a suction pump, a flotation and suction treatment device, a sediment dehydration unit, a transfer conveyor, a sediment collection box and a storage battery, absorbs sediment in water and collects the same after dehydration through an absorption means installed in the water while floating in lakes and reservoirs, and minimizes the moisture in the sediment collected by the same to easily post-treat the collected sediment.

Description

Sediment treatment devices for lakes and reservoirs

The present invention relates to a sediment treatment apparatus for lakes and reservoirs, and more particularly, by including a buoyancy ship, a compressor, a suction pump, a floatation and suction treatment unit, a sediment dehydration unit, a sediment dehydration unit, a transfer conveyor, a sediment collection box, and a storage battery. While floating in a lake or reservoir, the sediment in the water can be sucked through the suction means installed in the water and collected after dehydration. This minimizes the moisture of the collected sediment so that the post-treatment of the collected sediment can be easily performed. It relates to a device for treating sediment in a lake and reservoir.

In general, nutrients such as nitrogen and phosphorus are excessively introduced into the pooled water such as lakes and reservoirs, which contaminates the water quality, resulting in excessive propagation of various peat moss and algae, and these various peat moss and algae eventually result in the bottom of the lake and reservoir. It precipitated on cotton and became a factor that greatly polluted the water quality.

Since various foreign substances or debris settled in lakes and reservoirs are settled in the water for a long period of time, the water quality cannot be fundamentally improved unless forcibly collected. Putting a collector in water and forcibly collecting sediment from the bottom through it has already been proposed and has been used in practice.

That is, when the collector connected to the suction pump and the suction hose of the working ship is installed on the bottom of the water and the motor provided in the collector is operated, the screw provided on the motor shaft is rotated and deposited on the bottom surface. At the same time as the sediment is stirred, the suction pump equipped with the working vessel is operated to force the agitated sediment into the vessel together with water through the suction hose. In addition to being recovered, the debris was filtered and collected.

However, in such a conventional configuration, since the motor for driving the screw is provided in the collector installed in the water, a waterproof device for protecting the motor from water was required. Accordingly, the configuration There was a problem that it was difficult to manufacture due to this complexity.

In addition, in addition to these problems, above all, when the collector is installed in a deep water, its waterproof device cannot withstand water pressure and is damaged, resulting in a motor failure, etc. There is a problem that it cannot be used above a certain depth.

In addition, since a separate vessel for mounting the collector is required, there is a problem that the operation for collection cannot be easily performed.

Moreover, since the sediment collected through the collector contains a large amount of water, post-treatment is essentially required, which complicates the treatment process for the collected sediment.

Therefore, while floating in a lake or reservoir, the sediment in the water can be sucked through the suction means installed in the water and collected after dehydration treatment.Through this, the moisture of the collected sediment can be minimized to facilitate the post-treatment of the collected sediment. Research and development for sediment treatment equipment in lakes and reservoirs is required.

Republic of Korea Public Utility Model No. 1993-0023725 published on November 26, 1993. Registered Korean Patent No. 0457383 on November 5, 2005. Registered in Republic of Korea Utility Model No. 0439741 on April 24, 2008.

In order to solve the above problems, the present invention includes a buoyancy ship, a compressor, a suction pump, a flotation and suction treatment unit, a sediment dehydration unit, a transfer conveyor, a sediment collection box, and a storage battery. It is an object of the present invention to provide a sediment treatment apparatus for lakes and reservoirs capable of collecting sediment after dehydration by sucking sediment in water through means.

In addition, the technology according to the present invention is a suction means installed in the water while floating in a lake or reservoir through a configuration including a buoyancy line, a compressor, a suction pump, a floatation and suction treatment unit, a sediment dehydration unit, a transfer conveyor, a sediment collection box, and a storage battery. The purpose of this purpose is to minimize the moisture of the collected sediment by suctioning the sediment in water through the water to be collected after dehydration treatment, so that the post-treatment of the collected sediment can be easily performed.

The present invention for achieving the above object is as follows. That is, the apparatus for treating sediment in lakes and reservoirs according to the present invention is installed to be floating in the lakes and reservoirs to collect and process sediments deposited on the underwater bottom surface of the lakes and reservoirs, in the width direction of the lower part of the upper plate so as to float on the water surface. Buoyancy lines are fixedly installed on both sides and through which through holes are formed in a pair at regular intervals on both sides in the front-rear direction with respect to the center in the longitudinal direction of the upper plate; A compressor installed on the front side of the buoyancy line, one end of which passes through any one of the through holes, and the other end of the exhaust connection pipe extending downwardly is connected, and is operated to selectively exhaust air through the exhaust connection pipe; Sediment that is installed on the rear side of the buoyancy line and has one end penetrating through the other one of the through holes and the other end of the suction connection pipe extending downward is connected, and the sediment floating in a state deposited on the underwater bottom surface by the exhaust of the compressor A suction pump operated to be selectively sucked through a suction connector and discharged through an outlet that is bent and extended from the top to one side; A flotation/suction treatment unit in which the exhaust connection pipe and the suction connection pipe are connected in communication at the top, and the air supplied through the exhaust connection pipe is blown so that the sediment floating from the bottom of the water is sucked through the suction connection pipe; A sediment dehydration unit disposed below the outlet of the suction pump and configured to be guided downward by compressing and dehydrating moisture of the sediment discharged from the outlet of the suction pump; A transfer conveyor installed at one side of the suction pump, the sediment dehydration unit is installed to surround the upper portion, and is discharged to the outlet of the suction pump, is compressed and dehydrated through the sediment dehydration unit, and transfers the sediment falling downward in one direction; A sediment collection box that is mounted and installed on one side in the rear width direction of the buoyancy line, which is below the end of the conveying direction of the conveying conveyor, and collects dewatered sediment which is conveyed and dropped through the conveying conveyor; And a storage battery installed on the central upper surface of the upper plate between the through holes of the buoyancy line, and supplying electricity for driving a compressor, a suction pump, a sediment dehydration unit, and a transfer conveyor by being stored through a power storage means.

Here, the floating and suction treatment port is provided in a dome shape with an open lower portion so that the exhaust connection pipe and the suction connection pipe are connected in communication, and an exhaust connection port in which the exhaust connection pipe is connected to communicate with the inner space at the upper center is protruding. The body cover is provided with a protruding suction connector on one side of the upper exhaust connector, and a hollow cylindrical type with a convex lower end in an inverted triangle type to communicate with the exhaust connector at the center of the body cover. It is preferable to include an exhaust outlet connected to the central portion of the lower surface of the body cover such that the upper end is in communication with the exhaust connector and the upper end is formed to pass through the ejection hole at a predetermined interval on the outer surface.

At this time, the exhaust connector and the exhaust connector of the body cover are connected through an exhaust connector having a pair of one-touch type connecting structures, while the intake connector and the intake connector of the body cover are a pair of one-touch type connecting structures. It is preferable to be connected through a suction connector having a.

In addition, the sediment dehydration unit is an installation frame that is mounted on the upper plate of the buoyancy line so as to surround the upper part of the transfer conveyor, and the upper and lower parts of the installation frame are opened in a case shape. And, the upper end of the installation box is connected in communication in a shape of a hopper of the upper side, and the inlet hopper through which the sediment discharged from the upper portion of the suction pump is introduced and a driving means inside the installation box contact each other in a pair. It is preferable to include an extrusion roller provided to rotate in the other direction.

At this time, the inlet hopper of the sediment dehydration unit has an outlet formed at one central portion so that moisture from the sediment containing moisture introduced from the open upper portion is discharged to the outside, and a discharge pipe extends outward by a certain length along the periphery of the outlet. It is preferable that the discharge port is provided with a discharge filter so that only moisture excluding sediment is discharged to the outside.

Moreover, the inlet hopper of the sediment dehydration unit further includes airtight pads at both lower ends of the inside close to the surface of the pair of extrusion rollers so that the open lower end adjacent to the inner extrusion roller can be tightly closed. It is desirable to be.

On the other hand, it is installed at the rear end of the upper plate of the buoyancy line so that the buoyancy line can be selectively started, a motor installed in the center of the rear end of the buoyancy line and driven by receiving power through a storage battery, and connected to the shaft of the motor, It is preferable to further include a starting means including a direction control lever installed on an upper portion of the motor for adjusting the direction of the propeller rotated by the drive and the buoyancy line.

In addition, it is preferable that the exhaust connection pipe and the suction connection pipe are provided in a corrugated pipe type capable of extending and contracting a certain length.

The effect of the apparatus for treating sediment in lakes and reservoirs according to the present invention will be described as follows.

First, by including a buoyancy ship, a compressor, a suction pump, a flotation and suction treatment unit, a sediment dehydration unit, a transfer conveyor, a sediment collection box, and a storage battery, while floating in a lake or reservoir, the sediment in the water is sucked and dehydrated through the suction means installed in the water. After processing, it can be collected.

Second, through a configuration including a buoyancy ship, a compressor, a suction pump, a flotation and suction treatment unit, a sediment dehydration unit, a transfer conveyor, a sediment collection box, and a storage battery, the sediment in the water is suspended in a lake or reservoir while being suspended in the water. By inhaling to be collected after dehydration treatment, the moisture of the collected sediment is minimized, so that the post-treatment of the collected sediment can be easily performed.

1 is a perspective view showing a sediment treatment apparatus for lakes and reservoirs according to the present invention.
Figure 2 is a side view showing a sediment treatment apparatus for lakes and reservoirs according to the present invention.
3 is a plan configuration diagram showing a sediment treatment apparatus for lakes and reservoirs according to the present invention.
Figure 4 is a cross-sectional view showing the main part of the dehydration unit that is the main part of the sediment treatment apparatus for lakes and reservoirs according to the present invention.
Figure 5 is an exemplary use state showing the state of use of the sediment treatment apparatus for lakes and reservoirs according to the present invention.

Hereinafter, a preferred embodiment of a sediment treatment apparatus for lakes and reservoirs according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a sediment treatment apparatus of a lake and a reservoir according to the present invention, FIG. 2 is a side view showing a sediment treatment apparatus of a lake and a reservoir according to the present invention, and FIG. 3 is a lake according to the present invention. And it is a plan configuration diagram showing the sediment treatment apparatus of the reservoir.

4 is a cross-sectional view illustrating a main part of a dehydration unit, which is a main part of the apparatus for treating sediment in lakes and reservoirs according to the present invention.

5 is an exemplary view showing the state of use of the apparatus for treating sediment in lakes and reservoirs according to the present invention.

As shown in Figs. 1 to 5, the apparatus for treating sediment in lakes and reservoirs according to a preferred embodiment of the present invention is installed so as to float in lakes and reservoirs to collect and treat sediments deposited on the underwater bottom surface of the lakes and reservoirs, Buoyancy line (100), compressor (200), suction pump (300), floating and suction treatment unit (400), sediment dehydration unit (500), transfer conveyor (600), sediment collection box (700) and storage battery (800). Including.

Specifically, the buoyancy line 100 is fixedly installed on both sides in the width direction of the lower portion of the upper plate 110 so that the buoyancy line 100 floats on the water surface, The through holes 111 and 112 are formed through a pair at regular intervals on both sides.

In addition, the compressor 200 is installed on the front side of the buoyancy line 100, one end of the exhaust connection pipe (200a) extending downward through the through hole 111 of any one of the through holes 111 and 112 The other end of the is connected, and is operated to selectively exhaust air through the exhaust connection pipe (200a).

In addition, the suction pump 300 is installed on the rear side of the buoyancy line 100 so that one end of the suction connection pipe 300a extends downward through the through hole 112 of the other of the through holes 111 and 112 The other end of the is connected, and the sediment floating in the state deposited on the underwater bottom surface by the exhaust of the compressor 200 is selectively sucked through the suction connection pipe 300a, and the discharge port 310 is bent and extended from the top to one side. It is operated to be discharged through.

In addition, the floating and suction treatment port 400 is connected in communication with the exhaust connection pipe 200a and the suction connection pipe 300a at the top, and the air supplied through the exhaust connection pipe 200a is ejected to float from the bottom of the water. The sediment is to be sucked through the suction connection pipe (300a).

In addition, the sediment dehydration unit 500 is disposed under the outlet 310 of the suction pump 300, and compresses and dewaters moisture of the sediment discharged from the outlet 310 of the suction pump 300 to guide downward. will be.

In addition, the transfer conveyor 600 is installed on one side of the suction pump 300, and the sediment dehydration unit 500 is installed to surround the upper portion, and the sediment is discharged to the outlet 310 of the suction pump 300 The sediment that is compressed and dehydrated through the dehydration unit 500 and falls downward is transferred in one direction.

And the sediment collection box 700 is installed on one side in the rear width direction of the buoyancy line 100 that is below the end of the transfer direction in the transfer direction of the transfer conveyor 600, and is transferred through the transfer conveyor 600 to drop dehydration. It is to collect the treated sediment.

In addition, the storage battery 800 is installed on the central upper surface of the upper plate 110 between the through holes 111 and 112 of the buoyancy line 100, and is stored through a power storage means, the compressor 200, the suction pump 300 ), to supply electricity for driving the sediment dehydration unit 500, and the transfer conveyor 600.

The storage battery 800 as described above is not specifically shown in the drawings, for example, by storing electricity through a power generation unit (not shown) such as a solar power generation unit or a wind power generation unit installed on one side. It is desirable to supply electricity for driving.

On the other hand, the floating and suction treatment port 400, which is an essential part of the sediment treatment apparatus for lakes and reservoirs according to the present invention having the configuration as described above, includes a body cover 410 and an exhaust outlet 430.

In detail, the main body cover 410 is provided in a dome shape with an open lower part so that the exhaust connection pipe 200a and the intake connection pipe 300a are connected in communication with each other, and the exhaust connection pipe 200a is an internal space at the upper center. The exhaust connector 411 connected in communication with is protruded, and a suction connector 413 through which the intake connector 300a is connected in communication with one side of the exhaust connector 411 on the upper side is protruded.

And the exhaust outlet 430 is formed in a hollow cylindrical type with a convex lower end in an inverted triangular type so as to communicate with the exhaust connector 200a in the center of the body cover 410, and has a predetermined interval on the outer surface of the ejection hole 431 ) Is formed through, and the upper end is connected to the central portion of the lower surface of the body cover 410 to communicate with the exhaust connector (200a).

In other words, the exhaust spout 430 is the bottom of the exhaust spout 430 so that a certain length of the bottom portion can be embedded in the bottom of the water so that the sediment deposited on the underwater bottom surface of a lake or reservoir can be suspended and inhaled for treatment. It is preferable that the shape of the lower part is provided in a hollow cylindrical type convex in an inverted triangle.

The exhaust outlet 430 as described above may be formed in a round shape with a pointed lower end of an inverted triangle having a predetermined diameter.

Meanwhile, in the present invention having the configuration as described above, the exhaust connector 200a and the exhaust connector 411 of the body cover 410 are through an exhaust connector 200b having a pair of one-touch type connecting structures. It is desirable to be connected.

In this case, the exhaust connector 200b is not specifically shown, but it is more preferable that the exhaust connector 200b is provided as a connector having the same structure as that of a connector connecting a conventional washing hose to a faucet.

Moreover, the suction connector 300a and the suction connector 413 of the body cover 410 are also connected through a suction connector 300b having a pair of one-touch type connecting structures, similar to the exhaust connector 200b. It is desirable.

Of course, the suction connector 300b is also not shown in detail, but it is more preferable that the suction connector 300b be provided as a connector having the same structure as that of a connector connecting a conventional washing hose to a faucet.

Moreover, it is preferable that the exhaust connection pipe 200a and the suction connection pipe 300a as described above are provided in a corrugated pipe type capable of extending and contracting a predetermined length.

On the other hand, the sediment dewatering unit 500, which is an essential part of the sediment treatment apparatus for lakes and reservoirs according to the present invention having the configuration as described above, has a large installation frame 510, an installation box 520, and an inlet hopper 530. ) And an extrusion roller (550).

In detail, the installation frame 510 is mounted and installed on the upper plate 110 of the buoyancy line 100 so as to surround the upper portion of the transfer conveyor 600.

In addition, the installation box 520 is provided in a shape of a housing in which upper and lower portions are opened with respect to the center of the upper width direction of the installation frame 510.

In addition, the inlet hopper 530 is connected in communication from the upper end of the installation box 520 in a shape of a hopper having a upper and lower side, and the sediment discharged from the top to the outlet 310 of the suction pump 300 is introduced.

In addition, the extrusion rollers 550 are provided to be rotated in different directions by contacting each other in a pair through a driving means inside the installation box 520.

At this time, the drive means (not shown) is not specifically shown in the drawings, but it is preferable to be provided as a drive means including a drive motor and a plurality of gears, which is a drive means for a conventional extrusion roller.

In the sediment dehydration unit 500 having the configuration as described above, in particular, the inlet hopper 530 is an outlet at one central portion so that moisture is discharged to the outside from the sediment containing moisture introduced from the open top ( It is preferable that the discharge pipe 535 is formed to extend a certain length outward along the periphery of the discharge port 531, and the discharge filter 533 is installed so that only moisture excluding sediment is discharged to the outside. Do.

In addition, the inlet hopper 530 of the sediment dehydration unit 500 is provided with the surface of the pair of extrusion rollers 550 so that the open lower end adjacent to the extrusion roller 550 inside can be tightly closed. It is more preferable that the airtight pads 537 are further provided at the lower ends of both sides of the adjacent interior.

On the other hand, the sediment treatment apparatus for lakes and reservoirs according to the present invention having the configuration as described above is a starting means installed on the rear end side of the upper plate 110 of the buoyancy line 100 so that the buoyancy line 100 can be selectively started. It is preferable to further include (900).

At this time, the starting means 900 is installed in the center of the rear end of the buoyancy line 100 and is connected to a motor 910 that is driven by receiving power through the storage battery 800, and is connected to the shaft of the motor 910. It is preferable to include a propeller 920 rotated by the drive of 910 and a direction control lever 930 installed on the motor 910 to control the direction of the buoyancy line 100.

The starting means 900 as described above is preferably installed on an installation plate (not shown) protruding above the rearward plate with respect to the central part in the width direction with respect to the rear end of the upper plate of the buoyancy line 100, and of course, the installation plate (US It may be installed directly at the center portion in the width direction with respect to the rear end of the upper plate of the buoyancy line 100 without a symbol).

According to the sediment treatment apparatus of the lake and reservoir according to the present invention having the configuration as described above, the lake by including a buoyancy line, a compressor, a suction pump, a floatation and suction treatment unit, a sediment dehydration unit, a transfer conveyor, a sediment collection box, and a storage battery. B While floating in the reservoir, the sediment in the water can be sucked through the suction means installed in the water and collected after dehydrating.

Furthermore, through a configuration including a buoyancy ship, a compressor, a suction pump, a flotation and suction treatment unit, a sediment dehydration unit, a transfer conveyor, a sediment collection box, and a storage battery, the sediment in the water is suspended in a lake or reservoir while being suspended in the water. It is possible to easily perform post-treatment of the collected sediment by minimizing the moisture of the collected sediment by allowing it to be collected after suction and dehydration treatment.

Although specific embodiments of the present invention have been described in detail above, the present invention is not limited thereto, and the present invention can be implemented in various modifications by those of ordinary skill in the art to which the present invention belongs. Is included within the scope of the present invention.

100: buoyancy line 110: upper plate
111, 112: tonggong 120: bugu
200: compressor 200a: exhaust connector
200b: exhaust connector 300: suction pump
310: outlet 300a: suction connector
300b: suction connector 400: floating and suction treatment port
410: body cover 411: exhaust connector
413: intake connector 430: exhaust outlet
431: ejection hole 500: sediment dehydration unit
510: installation frame 520: installation box
530: inlet hopper 531: outlet
533: discharge filter 535: discharge pipe
537: airtight pad 550: extrusion roller
600: transfer conveyor 700: sediment collection box
800: storage battery 900: starting means
910: motor 920: propeller
930: direction control lever

Claims (8)

It is installed to float in lakes and reservoirs to collect and treat sediment deposited on the underwater bottom of lakes and reservoirs.
Buoys 120 are fixedly installed on both sides in the width direction of the lower part of the top plate 110 so as to float on the water surface, and through a pair of holes at a predetermined interval on both sides in the front and rear direction with respect to the center of the length direction of the top plate 110 The buoyancy line 100 through which (111, 112) is formed;
The other end of the exhaust connection pipe 200a, which is installed on the front side of the buoyancy line 100 and extends downward through one of the through holes 111 and 112, is connected, and the exhaust connection A compressor 200 operated to selectively exhaust air through the pipe 200a;
The other end of the suction connector 300a is installed on the rear side of the buoyancy line 100 and has one end extending downward through the other through hole 112 of the through holes 111 and 112, and the compressor A suction pump operated to selectively inhale the sediment floating in the state of being settled on the underwater bottom surface by the exhaust of 200 through the suction connector 300a and discharge it through the discharge port 310 that is bent and extended from the top to one side. (300);
The exhaust connection pipe (200a) and the suction connection pipe (300a) are connected in communication at the top, and the air supplied through the exhaust connection pipe (200a) is ejected, and the sediment floating from the underwater floor is transmitted through the suction connection pipe (300a). Floating and suction treatment unit 400 to be sucked;
A sediment dehydration unit 500 disposed below the outlet 310 of the suction pump 300 and configured to be guided downward by compressing and dewatering the moisture of the sediment discharged from the outlet 310 of the suction pump 300;
It is installed on one side of the suction pump 300, the sediment dehydration unit 500 is installed to surround the upper portion, is discharged to the outlet 310 of the suction pump 300, and pressurized dehydration through the sediment dewatering unit 500 A transfer conveyor 600 for transferring the sediment falling downward in one direction;
A sediment collection box that is mounted and installed on one side in the rear width direction of the buoyancy line 100, which is below the end of the transfer direction of the transfer conveyor 600, and collects the dewatered sediment that is transferred and dropped through the transfer conveyor 600. (700); And
It is installed on the central upper surface of the upper plate 110 between the through holes 111 and 112 of the buoyancy line 100, and is stored through a power storage means, the compressor 200, the suction pump 300, and the sediment dewatering unit 500 , Lake and reservoir sediment treatment apparatus comprising a storage battery 800 for supplying electricity for driving the transfer conveyor 600.
The method of claim 1,
The floating and suction treatment port 400 is provided in a dome shape with an open lower part so that the exhaust connection pipe 200a and the suction connection pipe 300a are connected in communication at the top, and the exhaust connection pipe 200a is an internal space in the upper center. The body cover 410 which has an exhaust connector 411 connected in communication with the protrusion, and a suction connector 413 through which the suction connector 300a is connected in communication with one side of the upper exhaust connector 411 is protruded. And
The body cover 410 is formed in a hollow cylindrical type convex in an inverted triangular type at the bottom to communicate with the exhaust connector 200a at the center of the body cover 410, so that the ejection hole 431 is formed through the outer surface at a predetermined interval, and the top is Sediment treatment apparatus for lakes and reservoirs, characterized in that it comprises an exhaust outlet 430 connected to the central portion of the lower surface of the body cover 410 so as to be in communication with the exhaust connector 200a.
The method of claim 2,
The exhaust connector 200a and the exhaust connector 411 of the body cover 410 are connected through an exhaust connector 200b having a pair of one-touch type connecting structures,
The suction connector 300a and the suction connector 413 of the body cover 410 are connected through a pair of suction connectors 300b having a one-touch type connecting structure. .
The method of claim 1,
The sediment dehydration unit 500 includes an installation frame 510 mounted and installed on the upper plate 110 of the buoyancy line 100 so as to surround the upper portion of the transfer conveyor 600,
An installation box 520 provided in the shape of a case in which the upper and lower portions are opened with respect to the center of the upper width direction of the installation frame 510,
An inlet hopper 530 through which the sediment discharged from the upper end of the installation box 520 is connected in a hopper shape of the upper and lower side, and the sediment discharged from the upper portion of the suction pump 300 flows in, and
An apparatus for treating sediment in lakes and reservoirs, characterized in that it comprises an extrusion roller (550) provided to rotate in different directions by contacting each other in a pair through a driving means in the installation box (520).
The method of claim 4,
The inlet hopper 530 of the sediment dehydration unit 500 has an outlet 531 formed at one central portion so that moisture from the sediment containing moisture introduced from the open top is discharged to the outside, and the outlet 531 A discharge pipe 535 is formed to extend a certain length outward along the periphery, and the discharge port 531 is provided with a discharge filter 533 so that only water excluding the sediment is discharged to the outside.
The method of claim 5,
The inlet hopper 530 of the sediment dehydration unit 500 is close to the surface of the pair of extrusion rollers 550 so that the open bottom adjacent to the inside of the extrusion roller 550 can be tightly closed. Sediment treatment apparatus for lakes and reservoirs, characterized in that airtight pads 537 are further provided at both lower ends of the inside.
The method of claim 1,
It is installed on the rear end of the upper plate 110 of the buoyancy line 100 so that the buoyancy line 100 can be selectively started,
A motor 910 installed in the center of the rear end of the buoyancy line 100 and driven by receiving power through the storage battery 800,
A propeller 920 connected to the shaft of the motor 910 and rotated by the drive of the motor 910 and
A device for treating sediment in lakes and reservoirs, characterized in that a starting means 900 including a direction control lever 930 installed on an upper portion of the motor 910 for adjusting the direction of the buoyancy line 100 is further provided.
The method of claim 1,
The exhaust connection pipe 200a and the suction connection pipe 300a are provided in a corrugated pipe type capable of extending and contracting a predetermined length.

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